CN204453795U - A kind of steel scrap pre-treatment production line transshipment acitivity - Google Patents

Abstract

The utility model relates to a kind of steel scrap pre-treatment production line transshipment acitivity, and it comprises the identical quadric linkage of two covers, is arranged at base both sides respectively; Quadric linkage comprises frame, driving crank, rocking bar, connecting rod, feeding fork; Be fixedly connected with between frame with base; Driving crank one end and frame upper end are rotationally connected, and the middle part of the driving crank other end and connecting rod is rotationally connected; The lower end of rocking bar one end and frame is rotationally connected, and one end of the rocking bar other end and connecting rod is rotationally connected; Feeding fork is connected with the other end of connecting rod.The driving crank of two cover quadric linkages is fixedly connected with same axle drive shaft, ensures that feeding fork is synchronized with the movement with identical track.The beneficial effects of the utility model are: can by setting beat intermittence by material transfer to travel line; Reclaiming process is steady, and stacking material can not topple; Transport speed can be realized mate with the kinematic velocity of travel line, avoid both speed have big difference and cause the instability of steel scrap enclosed mass.

Description

A kind of steel scrap pre-treatment production line transshipment acitivity

Technical field

The utility model relates to a kind of steel scrap pre-treatment production line transshipment acitivity.

Background technology

Since twentieth century, along with the development of broken iron industry, the progress of science and technology and the transformation of idea, traditional handicraft, equipment progressively expose its intrinsic shortcoming, are difficult to adapt to the demand of modern enterprise high efficiency, low cost, energy-saving and cost-reducing, environmental protection.Large-scale processing steel scrap enterprise for meeting national industrial policies, realize recycling economy, energy-saving and cost-reducing, target that labour intensity, protection of the environment, high-quality furnace charge of increasing work efficiency, provide are provided, need that advanced person, reliable, high efficiency, low energy consumption, small investment, instant effect, pollution are little, the place in operation of maneuverability, processing steel scrap equipment simple to operate, easy to maintenance.Along with the increase of enterprise demand, various employing mechanical-electrical-hydraulic integration controls, work efficiency is high, labour intensity is low, degree of automation is high, easy and simple to handle sensitive, environmental pollution is little, the sophisticated equipment of dependable performance occurs in succession, particularly the equipment such as compress extensively becomes ideal and the visual plant of processing steel scrap industry process scrap metal, broken iron handling, process and provide and played positive role in high-quality furnace charge etc. and brought huge Social benefit and economic benefit for enterprise.

China is steel scrap demand big country, steel scrap pretreatment backwardness relatively, during steel scrap process automation development is in development and improves.Shear packing manufacturing line at certain enterprise's steel scrap the light-duty steel scraps such as various wire scrap, steel rope, steel band are processed, make it to be formed cuboid enclosed mass closely, under material-pulling device effect, fall fast in stock chest.Enclosed mass is needed to be transported on travel line.

Existing three kinds of enclosed mass Handling devices: first kind of way captures enclosed mass with manipulator, puts on travel line, advantage: wide accommodation, shortcoming: manipulator is expensive; The second way captures enclosed mass with fixture, traversing on travel line after promoting with winch, then put down, advantage: less expensive, shortcoming: speed is slow, needs design specialized fixture; The third mode be with carrying mechanism complete feeding, traversing, put action, enclosed mass is transported on travel line, advantage: transporting velocity is fast, with low cost, shortcoming: the optimal design work capacity of structure is large.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of steel scrap pre-treatment production line transshipment acitivity, solves the deficiencies in the prior art.

The technical scheme that the utility model solves the problems of the technologies described above is as follows: a kind of steel scrap pre-treatment production line transshipment acitivity, and it comprises the quadric linkage of the both sides being arranged at base; The structure of two described quadric linkages is identical; Quadric linkage described in one of them comprises frame, driving crank, rocking bar, connecting rod, feeding fork; Be fixedly connected with between described frame with described base; One end of described driving crank and the upper end of described frame are rotationally connected, and the other end of described driving crank and the middle part of described connecting rod are rotationally connected; One end of described rocking bar and the lower end of described frame are rotationally connected, and the other end of described rocking bar and one end of described connecting rod are rotationally connected; Described feeding fork is connected with the other end of described connecting rod.

The beneficial effects of the utility model are: avoid the kinematic velocity of enclosed mass and travel line have big difference and cause the instability of steel scrap enclosed mass.

Accompanying drawing explanation

Fig. 1 is the sketch of crank cranking-block carrying mechanism;

Fig. 2 is the sketch of crank rocker carrying mechanism;

Fig. 3 is crank rocker mechanism driven member P locus of points figure;

Fig. 4 is quadric linkage driven member P locus of points figure;

Fig. 5 is the decomposition curve of the crank rocker mechanism driven member P locus of points in x, y-axis direction;

Fig. 6 is the decomposition curve of the quadric linkage driven member P locus of points in x, y-axis direction;

Fig. 7 is that crank rocker mechanism driven member P point is at x-axis, y-axis direction velocity curve;

Fig. 8 is that quadric linkage driven member P point is at x-axis, y-axis direction velocity curve;

Fig. 9 is that crank rocker mechanism P point is at x-axis, y-axis directional acceleration figure;

Figure 10 is that quadric linkage, P point are at x-axis, y-axis directional acceleration figure;

Figure 11 is constructional drawing of the present utility model;

Figure 12 is expansion drawing of the present utility model.

Detailed description of the invention

Be described principle of the present utility model and feature below in conjunction with accompanying drawing, example, only for explaining the utility model, is not intended to limit scope of the present utility model.

In order to solve above-mentioned technical matters, utility model people tentatively considers double crank parallel-crank mechanism, crank rocker mechanism and quadric linkage etc., final decision adopts crank rocker mechanism and quadric linkage, because although double crank parallel-crank mechanism easily ensures feeding bucket all the time straight up, and design difficulty is relatively little, but the path of motion of hopper is circular movement, in the feeding needing to move straight up and blowing process, unavoidably there is the componental movement of horizontal direction, and this componental movement speed non-constant, therefore the acceleration/accel of horizontal direction can not be zero.Avoid this problem, need in the path of motion of hopper, at least there is one section of almost line segment completely straight up, now horizontal direction componental movement speed and displacement almost nil, can ensure that reclaiming process is more reliable like this, crank rocker mechanism and quadric linkage are all likely realized this goal.

Be illustrated in figure 1 the sketch of crank cranking-block carrying mechanism, crank AB is driving link, and rotate with constant velocity n (r/s), the relative length of each component is respectively a, b, e.This mechanism is placed in rectangular coordinate system xoy, and the fixed hinge A point of crank overlaps with coordinate origin, and frame AC overlaps with x-axis.In △ ABC, sine is used to have:

$\frac{\mathrm{BC}}{\sin \mathrm{\θ}}=\frac{a}{\sin \mathrm{\α}}=\frac{b}{\sin (\mathrm{\π}-\mathrm{\θ}-\mathrm{\α})}---\left(1\right)$

Namely have:

$\left\{\begin{array}{c}\mathrm{BC}\sin \mathrm{\α}=a\sin \mathrm{\θ}\\ a\sin (\mathrm{\θ}+\mathrm{\α})=b\sin \mathrm{\α}\end{array}\right.---\left(2\right)$

Obtain:

$\left\{\begin{array}{c}\mathrm{\α}={\cot }^{-1}\frac{\frac{b}{a}-\cos \mathrm{\θ}}{\sin \mathrm{\θ}}\\ \mathrm{BC}=\frac{a\sin }{\sin \mathrm{\α}}\end{array}\right.---\left(3\right)$

In △ PBC, sine is used to have:

$\frac{\mathrm{PC}}{\sin \mathrm{\β}}=\frac{e}{\sin \mathrm{\γ}}=\frac{\mathrm{BC}}{\sin (\mathrm{\π}-\mathrm{\β}-\mathrm{\γ})}---\left(4\right)$

In like manner can try to achieve:

$\left\{\begin{array}{c}\mathrm{\γ}={\cot }^{-1}\frac{\frac{\mathrm{BC}}{e}-\cos \mathrm{\β}}{\sin \mathrm{\β}}\\ \mathrm{PC}=\frac{e\sin \mathrm{\β}}{\sin \mathrm{\γ}}\end{array}\right.---\left(5\right)$

So the seat of P point is:

$\left\{\begin{array}{c}{x}_P=b-\mathrm{PC}\cos (\mathrm{\α}+\mathrm{\γ})\\ y_P=\mathrm{PC}\sin (\mathrm{\α}+\mathrm{\γ})\end{array}\right.---\left(6\right)$

The sketch of crank rocker carrying mechanism as shown in Figure 2, crank AB is driving link, and rotate with constant velocity n (r/s), the relative length of each component is respectively a, b, c, d, e.This mechanism is placed in artesian coordinates x ' oy ', xoy is earth axes, and x ' oy ' is Mechanics coordinates, and Mechanics coordinates is ω relative to the angle that earth axes rotates.The fixed hinge A point of crank overlaps with coordinate origin o with system of axes, and frame AD overlaps with Mechanics coordinates x-axis, gets each component in coordinate axle x ' and the projection on y ', can obtain following relational expression respectively:

$\left\{\begin{array}{c}a\cos \mathrm{\θ}+b\cos \mathrm{\α}-d-\cos \mathrm{\γ}=0\\ a\sin \mathrm{\θ}+b\sin \mathrm{\α}-c\sin \mathrm{\γ}=0\end{array}\right.---\left(7\right)$

Be added behind above formula equal sign both sides square, the α in cancellation (7) formula, after arrangement:

Ecosγ+Fsinγ+G＝0 (8)

In formula:

$\left\{\begin{array}{c}E=d-a\cos \mathrm{\θ}\\ F=-a\sin \mathrm{\θ}\\ G=\frac{E^2+F^2+c^2-b^2}{2c}\end{array}\right.---\left(9\right)$

By following triangulate decomposition method formula

$\cos \mathrm{\γ}=\frac{1-{\tan }^2\left(\frac{\mathrm{\γ}}{2}\right)}{1+{\tan }^2\left(\frac{\mathrm{\γ}}{2}\right)},\sin \mathrm{\γ}=\frac{2\tan \left(\frac{\mathrm{\γ}}{2}\right)}{1+{\tan }^2\left(\frac{\mathrm{\γ}}{2}\right)}$

(8) formula of substitution, can be about quadratic equation with one unknown, solve thus:

$\mathrm{\γ}=2{\tan }^{-1}\frac{F+\sqrt{E^2+F^2-G^2}}{E-G}---\left(10\right)$

$\mathrm{\α}={\tan }^{-1}\frac{F+c\sin \mathrm{\γ}}{E+c\cos \mathrm{\γ}}---\left(11\right)$

Then the coordinate of P point in system of axes x ' oy ' is:

$\left\{\begin{array}{c}{x_P}^{\′}=a\cos \mathrm{\θ}+e\cos (\mathrm{\β}+\mathrm{\α})\\ {y_P}^{\′}=a\sin \mathrm{\θ}+e\sin (\mathrm{\β}+\mathrm{\α})\end{array}\right.---\left(12\right)$

Again because system of axes x ' oy ' is ω relative to the angle of rotation of system of axes xoy, so P point is at system of axes

Coordinate in xoy is:

$\left\{\begin{array}{c}{x}_P={x_P}^{\′}\cos \mathrm{\ω}-{y_P}^{\′}\sin \mathrm{\ω}\\ y_P={x_P}^{\′}\sin \mathrm{\ω}+{y_P}^{\′}\cos \mathrm{\ω}\end{array}\right.---\left(13\right)$

Mechanism kinematic and dynamics analysis, according to above-mentioned equation, use MATLAB Program.Calculate through optimizing, obtaining crank rocker mechanism one group of satisfactory parameter is: a=120, b=270, e=210, β=180 °; The satisfactory parameter of quadric linkage is: a=163, b=297, c=198, d=330, e=165, β=180 °, ω=-19.5 °.When crank rotates a circle, the driven member P locus of points as shown in Figures 3 to 6.

Fig. 3 is crank rocker mechanism driven member P locus of points figure, Fig. 4 is quadric linkage driven member P locus of points figure.One section of almost line segment straight up is all had in Liang Zhong mechanism driven member P point path of motion.Wherein, the y coordinate interval that crank rocker mechanism is corresponding is [-85,85], and its length is 170mm; The y coordinate interval that quadric linkage is corresponding is [-183 ,-2], and its length is 185mm.Can meet and upwards pitch with U-shaped hopper the feeding needs getting steel scrap enclosed mass.

Fig. 5 and Fig. 6 is respectively crank rocker mechanism and the decomposition curve of the quadric linkage driven member P locus of points in x, y-axis direction, and wherein ordinate is the displacement of P point in x-axis, y-axis direction, and abscissa is crank angle.Visible in figure, almost vertical to epimere at the P locus of points, the interval, crank angle that crank rocker mechanism is corresponding is [-18 °, 18 °], and the interval, crank angle that quadric linkage is corresponding is [-15 °, 22 °], and this is the feeding interval of Liang Zhong mechanism.

When steel scrap enclosed mass is put on travel line by carrying mechanism, need the interval that driven member P point has one section of speed more stable in x-axis direction, thus avoid the kinematic velocity of enclosed mass and travel line have big difference and cause the instability of steel scrap enclosed mass.For this reason, the comprehensive kinematic and dynamic modeling of two mechanisms is analyzed.

Fig. 7 be crank rocker mechanism driven member P point at x-axis, y-axis direction velocity curve, Fig. 8 is that quadric linkage driven member P point is at x-axis, y-axis direction velocity curve.Visible in figure, except feeding section, crank rocker mechanism P point changes with crank all the time in the speed in x-axis direction, has no obvious velocity-stabilization interval.The relatively little interval of velocity variations is at point of inflexion on a curve place, and its value is ± 423mm/s, and corresponding crank angle is respectively 94 ° and 263 °.And quadric linkage is except feeding section, P point has one section in the speed in x-axis direction, and comparatively significantly velocity-stabilization is interval, corresponding interval, crank angle [101 °, 119 °], its value about-500mm/s.

Also can see from the acceleration diagram of Fig. 9, Figure 10, the above-mentioned interval corresponding x-axis directional acceleration value of quadric linkage is also less than crank rocker mechanism.This illustrates, compared with crank rocker mechanism, steel scrap enclosed mass can be put on the travel line of uniform movement by quadric linkage more reposefully.

In the whole interval that crank rotates, the kinematics characteristic curve of quadric linkage is not so good as the level and smooth of crank rocker mechanism, its maximum acceleration value is also obviously greater than crank rocker mechanism, therefore, when applying this mechanism, make the larger interval of acceleration/accel and operation interval stagger as far as possible, ensure the running stability of equipment.

In the path of motion of crank rocker mechanism and quadric linkage driven member P point, there is one section of almost line segment straight up, better can realize the action of being taken out by steel scrap enclosed mass in stock chest.And kinematics and dynamic analysis result shows, the interval that in the x-axis direction curve movement of quadric linkage, existence one section is more stable, and crank rocker mechanism does not almost have such interval, therefore the former better can meet the action request steadily put by steel scrap enclosed mass on travel line.Even so, in general, go more level and smooth than quadric linkage of the kinematics and dynamics curve of cranking block mechanism, therefore, at application quadric linkage as in steel scrap enclosed mass carrying mechanism process, the larger interval of degree of will speed up should be avoided as important operation interval, to improve the working stability of device as far as possible.

Figure 11, Figure 12 represent the constructional drawing of a kind of steel scrap pre-treatment production line transshipment acitivity of the present utility model:

A kind of steel scrap pre-treatment production line transshipment acitivity comprises the quadric linkage 1 of the both sides being arranged at base 2; The structure of two quadric linkages 1 is identical; Quadric linkage 1 described in one of them comprises frame 11, driving crank 12, rocking bar 13, connecting rod 14, feeding fork 15; Be fixedly connected with between described frame 11 with described base 2; One end of described driving crank 12 and the upper end of described frame 11 are rotationally connected, and the other end of described driving crank 12 and the middle part of described connecting rod 14 are rotationally connected; One end of described rocking bar 13 and the lower end of described frame 11 are rotationally connected, and the other end of described rocking bar 13 and one end of described connecting rod 14 are rotationally connected; Described feeding fork 15 is connected with the other end of described connecting rod 14, and the upper end of described feeding fork 15 is provided with and is got the groove of steel scrap bar 3 mating shapes.

Further: the described frame 11 of two described quadric linkages is all fixedly connected with described base 2.

Further: described frame 11, driving crank 12, rocking bar 13, connecting rod 14, feeding fork 15 adopts carbon steel, alloy steel is made.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (4)

1. a steel scrap pre-treatment production line transshipment acitivity, is characterized in that: the quadric linkage comprising the both sides being arranged at base; The structure of two described quadric linkages is identical; Quadric linkage described in one of them comprises frame, driving crank, rocking bar, connecting rod, feeding fork; Be fixedly connected with between described frame with described base; One end of described driving crank and the upper end of described frame are rotationally connected, and the other end of described driving crank and the middle part of described connecting rod are rotationally connected; One end of described rocking bar and the lower end of described frame are rotationally connected, and the other end of described rocking bar and one end of described connecting rod are rotationally connected; Described feeding fork is connected with the other end of described connecting rod.

2. a kind of steel scrap pre-treatment production line transshipment acitivity according to claim 1, is characterized in that: the upper end of described feeding fork be provided with by the groove got steel scrap strip and match.

3. a kind of steel scrap pre-treatment production line transshipment acitivity according to claim 1 or 2, is characterized in that: the described frame of two described quadric linkages is all fixedly connected with described base.

4. a kind of steel scrap pre-treatment production line transshipment acitivity according to claim 3, is characterized in that: described frame, driving crank, rocking bar, connecting rod, feeding fork adopts carbon steel, alloy steel is made.